Examples of org.apache.hadoop.io.FloatWritable

org.apache.hadoop.io.FloatWritable
A WritableComparable for floats.

      WritableComparable sortValue;


      if (raw instanceof Integer) {
        sortValue = new IntWritable(((Integer)raw).intValue());
      } else if (raw instanceof Float) {
        sortValue = new FloatWritable(((Float)raw).floatValue());
      } else if (raw instanceof String) {
        sortValue = new Text((String)raw);
      } else if (raw instanceof Long) {
        sortValue = new LongWritable(((Long)raw).longValue());
      } else {

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      int doc = scoreDocs[i].doc;
      
      WritableComparable sortValue;               // convert value to writable
      if (sortField == null) {
        sortValue = new FloatWritable(scoreDocs[i].score);
      } else {
        Object raw = ((FieldDoc)scoreDocs[i]).fields[0];
        if (raw instanceof Integer) {
          sortValue = new IntWritable(((Integer)raw).intValue());
        } else if (raw instanceof Float) {
          sortValue = new FloatWritable(((Float)raw).floatValue());
        } else if (raw instanceof String) {
          sortValue = new Text((String)raw);
        } else {
          throw new RuntimeException("Unknown sort value type!");
        }

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    FieldSortComparator fieldSortComparator = new FieldSortComparator(sortFields, sortFieldTypes);


    Hit hit1 = new Hit("shard", "node", 0.5f, 1, sortFieldTypes);
    Hit hit2 = new Hit("shard", "node", 0.2f, 2, sortFieldTypes);


    hit1.setSortFields(new WritableComparable[] { new Text("a"), new FloatWritable(hit1.getScore()) });
    hit2.setSortFields(new WritableComparable[] { new Text("a"), new FloatWritable(hit2.getScore()) });


    assertEquals(0, fieldSortComparator.compare(hit1, hit1));
    assertEquals(1, fieldSortComparator.compare(hit2, hit1));
    assertEquals(-1, fieldSortComparator.compare(hit1, hit2));
  }

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        }
        r.set(v);
        return r;
      }
      case FLOAT: {
        FloatWritable r = reuse == null ? new FloatWritable()
            : (FloatWritable) reuse;
        int v = 0;
        for (int i = 0; i < 4; i++) {
          v = (v << 8) + (buffer.read(invert) & 0xff);
        }
        if ((v & (1 << 31)) == 0) {
          // negative number, flip all bits
          v = ~v;
        } else {
          // positive number, flip the first bit
          v = v ^ (1 << 31);
        }
        r.set(Float.intBitsToFloat(v));
        return r;
      }
      case DOUBLE: {
        DoubleWritable r = reuse == null ? new DoubleWritable()
            : (DoubleWritable) reuse;
        long v = 0;
        for (int i = 0; i < 8; i++) {
          v = (v << 8) + (buffer.read(invert) & 0xff);
        }
        if ((v & (1L << 63)) == 0) {
          // negative number, flip all bits
          v = ~v;
        } else {
          // positive number, flip the first bit
          v = v ^ (1L << 63);
        }
        r.set(Double.longBitsToDouble(v));
        return r;
      }
      case STRING: {
        Text r = reuse == null ? new Text() : (Text) reuse;
        // Get the actual length first
        int start = buffer.tell();
        int length = 0;
        do {
          byte b = buffer.read(invert);
          if (b == 0) {
            // end of string
            break;
          }
          if (b == 1) {
            // the last char is an escape char. read the actual char
            buffer.read(invert);
          }
          length++;
        } while (true);


        if (length == buffer.tell() - start) {
          // No escaping happened, so we are already done.
          r.set(buffer.getData(), start, length);
        } else {
          // Escaping happened, we need to copy byte-by-byte.
          // 1. Set the length first.
          r.set(buffer.getData(), start, length);
          // 2. Reset the pointer.
          buffer.seek(start);
          // 3. Copy the data.
          byte[] rdata = r.getBytes();
          for (int i = 0; i < length; i++) {
            byte b = buffer.read(invert);
            if (b == 1) {
              // The last char is an escape char, read the actual char.
              // The serialization format escape \0 to \1, and \1 to \2,
              // to make sure the string is null-terminated.
              b = (byte) (buffer.read(invert) - 1);
            }
            rdata[i] = b;
          }
          // 4. Read the null terminator.
          byte b = buffer.read(invert);
          assert (b == 0);
        }
        return r;
      }


      case BINARY: {
        BytesWritable bw = new BytesWritable() ;
        // Get the actual length first
        int start = buffer.tell();
        int length = 0;
        do {
          byte b = buffer.read(invert);
          if (b == 0) {
            // end of string
            break;
          }
          if (b == 1) {
            // the last char is an escape char. read the actual char
            buffer.read(invert);
          }
          length++;
        } while (true);


        if (length == buffer.tell() - start) {
          // No escaping happened, so we are already done.
          bw.set(buffer.getData(), start, length);
        } else {
          // Escaping happened, we need to copy byte-by-byte.
          // 1. Set the length first.
          bw.set(buffer.getData(), start, length);
          // 2. Reset the pointer.
          buffer.seek(start);
          // 3. Copy the data.
          byte[] rdata = bw.getBytes();
          for (int i = 0; i < length; i++) {
            byte b = buffer.read(invert);
            if (b == 1) {
              // The last char is an escape char, read the actual char.
              // The serialization format escape \0 to \1, and \1 to \2,
              // to make sure the string is null-terminated.
              b = (byte) (buffer.read(invert) - 1);
            }
            rdata[i] = b;
          }
          // 4. Read the null terminator.
          byte b = buffer.read(invert);
          assert (b == 0);
        }
        return bw;
      }


      case TIMESTAMP:
        TimestampWritable t = (reuse == null ? new TimestampWritable() :
            (TimestampWritable) reuse);
        byte[] bytes = new byte[8];


        for (int i = 0; i < bytes.length; i++) {
          bytes[i] = buffer.read(invert);
        }
        t.setBinarySortable(bytes, 0);
        return t;


      default: {
        throw new RuntimeException("Unrecognized type: "
            + ptype.getPrimitiveCategory());
      }
      }
    }
    case LIST: {
      ListTypeInfo ltype = (ListTypeInfo) type;
      TypeInfo etype = ltype.getListElementTypeInfo();


      // Create the list if needed
      ArrayList<Object> r = reuse == null ? new ArrayList<Object>()
          : (ArrayList<Object>) reuse;


      // Read the list
      int size = 0;
      while (true) {
        int more = buffer.read(invert);
        if (more == 0) {
          // \0 to terminate
          break;
        }
        // \1 followed by each element
        assert (more == 1);
        if (size == r.size()) {
          r.add(null);
        }
        r.set(size, deserialize(buffer, etype, invert, r.get(size)));
        size++;
      }
      // Remove additional elements if the list is reused
      while (r.size() > size) {
        r.remove(r.size() - 1);
      }
      return r;
    }
    case MAP: {
      MapTypeInfo mtype = (MapTypeInfo) type;
      TypeInfo ktype = mtype.getMapKeyTypeInfo();
      TypeInfo vtype = mtype.getMapValueTypeInfo();


      // Create the map if needed
      Map<Object, Object> r;
      if (reuse == null) {
        r = new HashMap<Object, Object>();
      } else {
        r = (HashMap<Object, Object>) reuse;
        r.clear();
      }


      while (true) {
        int more = buffer.read(invert);
        if (more == 0) {
          // \0 to terminate
          break;
        }
        // \1 followed by each key and then each value
        assert (more == 1);
        Object k = deserialize(buffer, ktype, invert, null);
        Object v = deserialize(buffer, vtype, invert, null);
        r.put(k, v);
      }
      return r;
    }
    case STRUCT: {
      StructTypeInfo stype = (StructTypeInfo) type;
      List<TypeInfo> fieldTypes = stype.getAllStructFieldTypeInfos();
      int size = fieldTypes.size();
      // Create the struct if needed
      ArrayList<Object> r = reuse == null ? new ArrayList<Object>(size)
          : (ArrayList<Object>) reuse;
      assert (r.size() <= size);
      // Set the size of the struct
      while (r.size() < size) {
        r.add(null);
      }
      // Read one field by one field
      for (int eid = 0; eid < size; eid++) {
        r
            .set(eid, deserialize(buffer, fieldTypes.get(eid), invert, r
            .get(eid)));
      }
      return r;
    }
    case UNION: {
      UnionTypeInfo utype = (UnionTypeInfo) type;
      StandardUnion r = reuse == null ? new StandardUnion()
          : (StandardUnion) reuse;
      // Read the tag
      byte tag = buffer.read(invert);
      r.setTag(tag);
      r.setObject(deserialize(buffer, utype.getAllUnionObjectTypeInfos().get(tag),
          invert, null));
      return r;
    }
    default: {
      throw new RuntimeException("Unrecognized type: " + type.getCategory());

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            : (LongWritable) reuse;
        r = in.readLong(r);
        return r;
      }
      case FLOAT: {
        FloatWritable r = reuse == null ? new FloatWritable()
            : (FloatWritable) reuse;
        r = in.readFloat(r);
        return r;
      }
      case DOUBLE: {

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        tbOut.write(r);
        return;
      }
      case FLOAT: {
        FloatObjectInspector foi = (FloatObjectInspector) poi;
        FloatWritable r = reuse == null ? new FloatWritable()
            : (FloatWritable) reuse;
        r.set(foi.get(o));
        tbOut.write(r);
        return;
      }
      case DOUBLE: {
        DoubleObjectInspector doi = (DoubleObjectInspector) poi;
        DoubleWritable r = reuse == null ? new DoubleWritable()
            : (DoubleWritable) reuse;
        r.set(doi.get(o));
        tbOut.write(r);
        return;
      }
      case STRING: {
        StringObjectInspector soi = (StringObjectInspector) poi;

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            id = new IntWritable((Short) value.get(1));
            intnum5 = new IntWritable(((Byte) value.get(2)));
            intnum100 = new IntWritable(((Integer) value.get(3)));
            intnum = new IntWritable((Integer) value.get(4));
            longnum = new LongWritable((Long) value.get(5));
            floatnum = new FloatWritable((Float) value.get(6));
            doublenum = new DoubleWritable((Double) value.get(7));
            SumNumbers.ArrayWritable outputValue = new SumNumbers.ArrayWritable(id,
                intnum5, intnum100, intnum, longnum, floatnum, doublenum);
            context.write(intnum1000, outputValue);

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            id = new IntWritable();
            intnum5 = new IntWritable();
            intnum100 = new IntWritable();
            intnum = new IntWritable();
            longnum = new LongWritable();
            floatnum = new FloatWritable();
            doublenum = new DoubleWritable();
        }

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      List<Edge<LongWritable, FloatWritable>> edges =
          Lists.newArrayListWithCapacity(jsonEdgeArray.length());
      for (int i = 0; i < jsonEdgeArray.length(); ++i) {
        JSONArray jsonEdge = jsonEdgeArray.getJSONArray(i);
        edges.add(EdgeFactory.create(new LongWritable(jsonEdge.getLong(0)),
            new FloatWritable((float) jsonEdge.getDouble(1))));
      }
      return edges;
    }

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            (reusableEdge == null) ? getConf().createEdge() : reusableEdge;
        edge.getTargetVertexId().set(destVertexId);
        edges.add(edge);
      }
      vertex.initialize(
          new IntWritable(vertexId), new FloatWritable(1.0f), edges);
      ++verticesRead;
      return vertex;
    }

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